EP1701786B1 - Wasserabsorbierendes mittel, herstellungsverfahren dafür und absorbens und absorptionsgegenstand daraus - Google Patents
Wasserabsorbierendes mittel, herstellungsverfahren dafür und absorbens und absorptionsgegenstand daraus Download PDFInfo
- Publication number
- EP1701786B1 EP1701786B1 EP04807229A EP04807229A EP1701786B1 EP 1701786 B1 EP1701786 B1 EP 1701786B1 EP 04807229 A EP04807229 A EP 04807229A EP 04807229 A EP04807229 A EP 04807229A EP 1701786 B1 EP1701786 B1 EP 1701786B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- water
- absorbing agent
- absorbing
- absorbing resin
- absorbent
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Images
Classifications
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- A61L15/22—Bandages, dressings or absorbent pads for physiological fluids such as urine or blood, e.g. sanitary towels, tampons containing macromolecular materials
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Definitions
- the present invention relates to water-absorbing agents primarily composed of water-absorbing resin suitably used in, for example, paper diapers (disposable diapers), sanitary napkins, so-called incontinence pads, and other hygiene materials. More specifically, the invention relates to water-absorbing agents (resins), as well as their manufacturing methods and uses, of which crosslinked: have a heat retention indicator 1 of 3.0 or less, a centrifuge retention capacity (CRC) of 34 g/g or less in a 0.90 wt. % aqueous solution of sodium chloride, and an absorbency of 30 g/g or less in a 0.90 wt. % aqueous solution of sodium chloride against a pressure of 2.0 kPa; contain 60 wt.
- a heat retention indicator 1 of 3.0 or less
- CRC centrifuge retention capacity
- SFC saline flow conductivity
- Water-absorbing resins are popularly used as water-absorbing agent absorbing body fluids (urine, blood, etc.) and the like, providing major components for paper diapers, sanitary napkins, incontinence pads, and other hygiene materials.
- the performance includes, for example, seepage and diffusing absorbency.
- Related improvements have been made in terms of centrifuge retention capacity (CRC), absorbency against pressure (AAP), gel strength, and absorption rate.
- CRC centrifuge retention capacity
- AAP absorbency against pressure
- gel strength gel strength
- absorption rate absorption rate
- Document 1 discloses a porous fiber matrix and an absorbent composition made from a superabsorbent polymer dispersed in the pores in the fiber matrix.
- the superabsorbent polymer can absorb at least 27 ml of a 0.9 wt. % solution of sodium chloride against a pressure of 21000 dyne/cm 2 .
- the absorbent composition advantageously contains a 10 wt. % to 60 wt. % superabsorbent polymer.
- Document 2 describes an absorbent structure of a 60 wt. % to 100 wt. % superabsorbent polymer.
- the superabsorbent polymer is characterized by a free-swell rate of less than 60 seconds and at least a 5-minutes AUL (absorption under load) of 15 g/g.
- Document 3 discloses a porous fiber matrix and an absorbent composition containing an at least 30 wt. % superabsorbent polymer.
- the superabsorbent polymer has a deformation under load of less than 0.60 mm and a wicking index of 10 cm or more.
- Document 4 relates to an absorbent composition containing a 30 wt. % to 100 wt. % superabsorbent polymer which has a pressure absorbency index of at least 100 and an extractable content of less than 13 wt. % (during a 16-hour extraction in a 0.9 wt. % aqueous solution of sodium chloride).
- Document 5 describes a fiber matrix and an absorbent composition containing an at least 30 wt. % superabsorbent polymer which has a suction parameter of 700 or more.
- Document 6 discloses an absorbent composition with a pressure absorbency index of less than 100 and a vertical absorption of at least 12 g/g against a pressure of 1922.8 Pa.
- Document 7 discloses an absorbent composition with a saline flow conductivity (SFC) of at least about 30 ⁇ 10 -7 cm 3 sec/g for a 0.69 wt. % aqueous solution of sodium chloride and a performance of at least 23 g/g under a load of 0.7 psi (performance under load, or PUP).
- SFC saline flow conductivity
- Sacrificing absorption performance to give high heat retention would result in the water-absorbing resin failing to accomplish its basic goals of absorbing body fluids (urine, blood, etc.). Therefore, it is both important to give high heat retention and attain a required level of absorption performance.
- the present invention has an objective to provide a water-absorbing agent, absorbent, and absorbent article with excellent heat retention and absorption performance, as well as a method of manufacturing the water-absorbing resin.
- the inventors have found that the heat retention of a diaper can be enhanced by improving a particular capability of the water-absorbing resin, which has led to the completion of the invention.
- the heat retention indicator 1 is a representation of a temperature change on the surface of the water-absorbing resin over a unit time after a liquid is poured into the water-absorbing resin.
- the unit time here is 5 to 10 minutes. The lower the heat retention indicator 1, the smaller the temperature change on the water-absorbing resin surface, and the better the heat retention.
- a water-absorbing resin with a satisfactory heat retention indicator 1 value in accordance with the present invention can be prepared by controlling the centrifuge retention capacity, absorbency against pressure, and particle diameter of the water-absorbing resin in particular ranges during manufacture.
- the water-absorbing resin has a centrifuge retention capacity of 34 g/g or less in a 0.90 wt. % aqueous solution of sodium chloride and an absorbency of 30 g/g or less in a 0.90 wt. % aqueous solution of sodium chloride against a pressure of 2.0 kPa; contains 60 wt. % or more particles measuring 600 ⁇ m to 300 ⁇ m in diameter and 3 wt.
- % or less particles measuring less than 150 ⁇ m in diameter; and has a mass-average particle diameter of 400 ⁇ m to 600 ⁇ m, a standard deviation of logarithm ( ⁇ ) of particle size distribution of 0.250 to 0.400, and a saline flow conductivity (SFC) of less than 20 ⁇ 10 -7 cm 3 sec/g for a 0.69 wt. % aqueous solution of sodium chloride.
- SFC saline flow conductivity
- a water-absorbing agent of the present invention contains a water-absorbing resin having a crosslinking structure constructed by polymerization of an unsaturated monomer component as a major component.
- the water-absorbing resin is surface-treated (crosslinked).
- the water-absorbing agent may further contain water-insoluble inorganic fine particles where necessary.
- the water-absorbing resin meets the following conditions: its heat retention indicator 1 be 3.0 or less; its centrifuge retention capacity in a 0.90 wt. % aqueous solution of sodium chloride be 34 g/g or less; its absorbency in a 0.90 wt. % aqueous solution of sodium chloride against a pressure of 2.0 kPa be 30 g/g or less; it contain 60 wt.
- An absorbent in accordance with the present invention contains a water-absorbing agent in accordance with the present invention and hydrophilic fibers.
- An absorbent article in accordance with the present invention contains an absorbent in accordance with the present invention, a liquid-permeable top sheet, and a liquid-impermeable back sheet.
- a method of manufacturing a water-absorbing agent in accordance with the present invention is a method of manufacturing a water-absorbing agent containing a water-absorbing resin having a crosslinking structure constructed by polymerization of an unsaturated monomer component as a major component.
- the method involves: the polymerization step of polymerizing a monomer component containing an acid-group-containing unsaturated monomer as a major component to prepare a water-absorbing resin; the step of surface-treating the water-absorbing resin; and where necessary, the step of adding inorganic fine particles.
- the water-absorbing agent obtained in the steps meets the following conditions: its heat retention indicator 1 be 3.0 or less; its centrifuge retention capacity in a 0.90 wt.
- % aqueous solution of sodium chloride be 34 g/g or less; its absorbency in a 0.90 wt. % aqueous solution of sodium chloride against a pressure of 2.0 kPa be of 30 g/g or less; it contain 60 wt. % or more particles measuring 600 ⁇ m to 300 ⁇ m in diameter and 3 wt. % or less particles measuring less than 150 ⁇ m in diameter; its mass-average particle diameter be 400 ⁇ m to 600 ⁇ m; and its standard deviation of logarithm ( ⁇ ) of particle size distribution be 0.250 to 0.400.
- the water-absorbing agent obtained in the steps has a saline flow conductivity (SFC) of less than 20 ⁇ 10 -7 cm 3 sec/g for a 0.69 wt. % aqueous solution of sodium chloride.
- Figure 1 is a schematic of the configuration of a measuring device for a heat retention indicator, one of capabilities of the water-absorbing agent of the present invention.
- the inventors have focused on good heat retention, not to mention good water absorption, as properties needed with the diaper and like absorbent (absorbent article), with a purpose of developing an absorbent which gives the wearer less of the uncomfortable, cold feel which results from a post-liquid-absorption gel temperature decrease. Accordingly, the inventors have paid special attention to the water-absorbing agent which severely affects the performance of the absorbent.
- the inventors have found that the heat retention of the absorbent can be improved through the particular capability of the water-absorbing agent, which has led to the completion of the invention. That is, the inventors have found that the heat retention (comfort) of the absorbent (diaper) in actual use is well related with the specific parameter of the water-absorbing agent, which has led to the completion of the invention.
- the particular capability is referred to as the heat retention indicator 1 of the water-absorbing agent.
- This is an absolutely novel parameter for the water-absorbing agent (or water-absorbing resin) which cannot be found in prior art.
- the calculation of the heat retention indicator 1 will be discussed later in detail by way of examples along with related experiments.
- the heat retention indicator 1 is a representation of a temperature change on the surface of the water-absorbing agent (or water-absorbing resin) over a unit time after a liquid is poured into the water-absorbing agent (or water-absorbing resin).
- the unit time here is 5 to 10 minutes. The lower the heat retention indicator 1, the smaller the temperature change on the water-absorbing resin surface, and the better the heat retention.
- the water-absorbing agent comes to exhibit a satisfactory heat retention indicator 1 in accordance with the present invention through the control of the centrifuge retention capacity, absorbency against pressure, and particle diameter of the water-absorbing agent (or water-absorbing resin) in particular ranges during manufacture.
- the water-absorbing resin in accordance with the present invention is a conventionally known water-absorbing resin.
- An example is a conventional, publicly known crosslinked polymer that absorbs large quantities of water (50 to 1000 times) in ion-exchanged water to produce an anionic, non-ionic, or cationic water-insoluble hydrogel.
- the resin As a water-absorbing resin, the resin must be swellable in, and insoluble to, water.
- the uncrosslinked, water-soluble content (water-soluble polymer) in the water-absorbing resin is preferably 0 to 30 wt. % inclusive, more preferably 0 to 25 wt. % inclusive, even more preferably 0 to 20 wt. % inclusive, and still preferably 0 to 15 wt. % inclusive. Specific features of the water-absorbing resin will be detailed later.
- the water-absorbing agent in accordance with the present invention contains as a major component the aforementioned water-absorbing resin which is crosslinked on the surface (secondary crosslink).
- the water-absorbing resin accounts for preferably 80 wt. % or more, more preferably 90 wt % or more of the water-absorbing agent.
- the agent is normally in powder form. Specific features of the water-absorbing agent will be detailed later.
- the water-absorbing resin per se can function as the water-absorbing agent. Therefore, in the following description, the term, water-absorbing agent, encompasses the water-absorbing resin.
- the absorbent in accordance with the present invention is a molded article (e.g. sheet shape) which contains the aforementioned water-absorbing agent (or water-absorbing resin) and hydrophilic fibers as water-absorbing supplement.
- the absorbent article in accordance with the present invention contains the aforementioned absorbent, a liquid-permeable top sheet, and a liquid-impermeable back sheet (e.g., diapers and sanitary napkins).
- the water-absorbing resin in accordance with the present invention is typically prepared by polymerizing a monomer in solution form, drying the polymer where necessary, and crushing either before or after drying if necessary.
- a water-absorbing resin include partially neutralized polymers of polyacrylic acid, hydrolyzed starch/acrylonitrile graft polymers, starch/acrylic acid graft polymers, saponification products of vinyl acetate/acrylic ester copolymers, hydrolyzed acrylonitrile copolymers and acrylamide copolymers, and crosslinked products of these substances; denatured products of crosslinked polyvinyl alcohols containing carboxyl groups; and crosslinked isobutylene/maleic anhydride copolymers.
- These water-absorbing resins may be used either alone or in any combination.
- the water-absorbing resins may be used either alone or in any combination. Preferable among them are the water-absorbing resins containing acid groups and those containing carboxyl groups, either used alone or in a combination.
- a typical major component is a polymer obtained by polymerizing and crosslinking a monomer primarily composed of an acrylic acid and/or its salt (neutralized product).
- the crosslinking which takes place during the course of the polymerization and crosslinking of a monomer will be referred to as "primary crosslinking" so that it can be distinguished from the crosslinking (surface crosslinking or secondary crosslinking) which takes place during the course of the manufacture of a water-absorbing agent (will be detailed later).
- salts of acrylic acid include alkali metal salts, such as sodium, potassium, and lithium salts, of acrylic acid; ammonium salt of acrylic acid (acrylate); and amine salts of acrylic acid.
- the water-absorbing resin contains preferably 0 to 50 mole % acrylic acid and 100 to 50 mole % acrylate (the sum should be 100 mole %), more preferably 10 to 40 mole % acrylic acid and 90 to 60 mole % acrylate (the sum should be 100 mole %).
- the salt-forming neutralization of the water-absorbing resin may be performed before polymerization, that is, when the resin is still in monomer form, or during or after polymerization, that is, when the resin is already in polymer form. Combinations of these approaches may be used.
- the obtained water-absorbing resin generally tends to be highly absorbent and less water-soluble content; however, it requires a lot of work, equipment, and time to uniformly neutralize individual particles of the water-absorbing resin. See Japanese unexamined patent application 10-10173 (Tokukaihei 10-10173/1998 ) and European unexamined patent publication 882502 . Therefore, neutral polymerization is preferred.
- the monomer from which the water-absorbing resin for use in the present invention is derived may include monomers other than acrylic acid (salts) where necessary.
- specific examples of such monomers include, although not limited to, anionic unsaturated monomers and their salts, such as methacrylic acid, maleic acid, vinylsulfonic acid, styrenesulfonic acid, 2-(meth)acrylamide-2-methylpropanesulfonic acid, 2-(meth)acryloylethanesulfonic acid, and 2-(meth)acryloylpropanesulfonic acid; unsaturated monomers containing non-ionic hydrophilic groups, such as acrylamide, methacrylamide, N-ethyl(meth) acrylamide, N-n-propyl(meth)acrylamide, N-isopropyl(meth)acrylamide, N,N-dimethyl(meth)acrylamide, 2-hydroxyethyl(meth)acrylate, 2-hydroxypropyl(meth)acrylate, me
- a monomer other than acrylic acid (salts) is used in the present invention, that monomer is preferably 0 to 30 mole % inclusive, more preferably 0 to 10 mole % inclusive, of the total of the acrylic acid and its salts which are the major components.
- Using a monomer other than the acrylic acid (salts) at this ratio further improves the absorption property of the finished water-absorbing resin (or water-absorbing agent) and reduces the production cost of the water-absorbing resin (or water-absorbing agent).
- the monomer from which the water-absorbing resin for use in the present invention can be polymerized by bulk polymerization or precipitation polymerization. Considering performance, ease in control, and absorption of the swollen gel, however, reverse suspension polymerization and aqueous solution polymerization where the monomer is dissolved in water are preferred.
- the monomer concentration in the aqueous solution is determined according to the temperature of the aqueous solution and the monomer.
- the concentration is preferably 10 to 70 wt. %, more preferably 20 to 60 wt. %.
- a monomer aqueous solution is suspended in a hydrophobic organic solvent for polymerization.
- the method is described, for example, in US patents 4093776 , 4367323 , 4446261 , 4683274 , and 5244735 .
- aqueous solution polymerization a monomer aqueous solution is polymerized without using a dispersing solvent.
- Aqueous solution polymerization may be performed, for example, in a double-arm kneader which crushes produced water-containing gel while the polymerization of a monomer aqueous solution is in progress.
- An alternative is to place the monomer aqueous solution in a predetermined container or on conveyor belt and crush the polymerized gel with a meat chopper.
- a radical polymerization initiator or a polymerization photoinitiator may be used.
- the former include potassium persulfate, ammonium persulfate, sodium persulfate, t-butylhydroperoxide, hydrogen peroxide, and 2,2'-azobis(2-amidinopropane)dihydrochloride.
- An example of the latter is 2-hydroxy-2-methyl-1-phenyl-propane-1-on.
- a reducing agent may be used together to accelerate the dicomposition of the polymerization initiator.
- the combination offers a redox initiator.
- a reducing agent include, although not limited to, (bi)sulfurous acid (salts), such as sodium sulfite and sodium hydrogen sulfite; reducing metals (salts), such as L-ascorbic acid (salts) and ferrous salt; and amines.
- the polymerization initiator is used typically at 0.001 to 2 mole %, preferably at 0.01 to 0.1 mole %. If the polymerization initiator is used at less than 0.001 mole %, an increased amount of the unreacted monomer remains, undesirably leaving an increased amount of residual monomer in the produced water-absorbing resin and water-absorbing agent. In contrast, If the polymerization initiator is used in excess of 2 mole %, the produced water-absorbing resin and water-absorbing agent has a more water-soluble content. This is undesirable in some cases.
- Another way of initiating a polymerization reaction is to irradiate an high energy beam, such as a radiation beam, electron beam, or ultraviolet beam, to the reaction system. Further, the polymerization initiator may be used together.
- the reaction temperature for the polymerization reaction although not limited in any particular manner, is preferably from 15 to 130°C, more preferably from 20 to 120°C.
- the reaction time, polymerization pressure, and other conditions, since not limited in any particular manner, should be determined suitably according to the kinds of monomer and polymerization initiator, the reaction temperature, and other factors.
- the water-absorbing resin may be of a self-crosslinking type which does not require the use of a crosslinking agent.
- the water-absorbing resin involves a copolymerized or reacted crosslinking agent (internal crosslinking agent for the water-absorbing resin) that contains multiple unsaturated polymerizing groups or reactive groups per molecule.
- an internal crosslinking agent examples include N,N'-methylene bis(meth)acrylamide, (poly)ethylene glycol di(meth)acrylate, (poly)propylene glycol di(meth)acrylate, trimethylolpropane tri(meth)acrylate, glycerine tri(meth)acrylate, glycerine acrylate methacrylate, ethylene oxide denatured trimethylolpropane tri(meth)acrylate, pentaerythritol hexa(meth)acrylate, triallyl cyanurate, triallyl isocyanurate, triallyl phosphate, triallylamine, poly(meth)allyloxyalkanes, (poly)ethylene glycol diglycidyl ether, glycerol diglycidyl ether, ethylene glycol, polyethylene glycol, propylene glycol, glycerine, pentaerythritol, ethylenediamine, ethylene carbonate, propy
- internal crosslinking agents may be used alone or, two or more of them may be mixed for use in any suitable combination.
- the internal crosslinking agent may be added to the reaction system in a single batch or in multiple batches. Considering the absorption property of the final water-absorbing resin and water-absorbing agent and other factors, it is preferable to use a compound containing multiple unsaturated polymerizing groups during polymerization if at least one or more types of internal crosslinking agents are used.
- the internal crosslinking agent is used preferably at 0.001 to 2 mole % relative to the monomer, more preferably at 0.005 to 0.5 mole %, even more preferably at 0.01 to 0.2 mole %. If the internal crosslinking agent is used at less than 0.001 mole % or more than 2 mole %, the resultant absorption property may be insufficient.
- the internal crosslinking agent should added to the reaction system before, during, or after the polymerization of the monomer.
- the agent may be added after neutralization.
- hydrophilic polymers preferably 0 to 10 wt. % (relative to the monomer), such as starch, cellulose, derivatives of starch and cellulose, polyvinyl alcohol, polyacrylic acid (polyacrylate), and crosslinked products of polyacrylic acid (salts); 0 to 10 wt. %, preferably 0 to 1 wt. % of various foaming agents, such as (hydrogen) carbonate, carbon dioxide, azo compounds, and inactive organic solvents; 0 to 10 wt. % of various surfactants; 0 to 10 wt. % of chelating agents; and 0 to 10 wt. % of chain transfer agents, such as hypophosphorous acid (hypophosphite).
- hydrophilic polymers preferably 0 to 10 wt. % (relative to the monomer), such as starch, cellulose, derivatives of starch and cellulose, polyvinyl alcohol, polyacrylic acid (polyacrylate), and crosslinked products of
- the crosslinked polymer is obtained by aqueous solution polymerization and in gel form, that is, a crosslinked, water-containing gel polymer
- the crosslinked polymer is dried as necessary and normally crushed before and/or after the drying to obtain the water-absorbing resin.
- the drying is done typically at 80°C to 250°C, preferably at 100°C to 220°C, more preferably at 120°C to 200°C.
- the drying time is determined according to the surface area and water ratio of the polymer, as well as the drier type, so as to achieve the target water content ratio.
- the neutrality ratio although not limited in any particular manner, is preferably from 30 to 90 mole %, more preferably from 50 to 80 mole %, even more preferably from 60 to 75 mole %, to sufficiently deliver the advantage of the present invention.
- the resin is dried at 180°C for 3 hours to calculate a weight reduction, or the water content.
- the water content ratio although not limited in any particular manner, is preferably from 0.1 to 50 wt. %, more preferably from 0.2 to 30 wt. %, even more preferably from 0.3 to 15 wt. %, yet more preferably from 0.5 to 10 wt. %, when the physical properties of the obtained water-absorbing agent is considered.
- the resin is in powder form and its mass-average particle diameter is preferably about 100 to 1000 ⁇ m.
- the "water-absorbing resin (powder)" encompasses both a completely dry water-absorbing resin and a water-absorbing resin which, although containing a small quantity of water (for example, 0.3 to 15 wt. %, preferably 0.5 to 10 wt. %), can be handled in powder form.
- the physical properties under consideration in the Specification of a commercially available water-absorbing resin (or water-absorbing agent), which may or may not come in diapers, are measured after the resin is, for example, dried to reduce the water content ratio to 10 wt. % or less, preferably 5 ⁇ 2 wt. %.
- the drying that reduces the water ratio is preferably done under reduced pressure.
- the conditions of the drying are not limited in any particular manner, provided that the water-absorbing resin (or water-absorbing agent) does not decompose or change its nature.
- the water-absorbing resin compatible with the manufacturing method in accordance with the present invention is, for example, a water-absorbing resin in particle form.
- the water-absorbing resin particles used may measure in excess of 1000 ⁇ m in mass-average particle diameter when they are still in gel form straight from polymerization reaction, before undergoing a dry and pulverize process. However, the resin particles are normally dried, pulverized, and classified for a diameter suitable for usage.
- the water-absorbing resin particles (powder) prepared in this manner may take any shape which is not limited in any particular manner. They may be spherical, pulverized, or irregular. Preferred for use is an irregularly pulverized shape given by a pulverization step.
- the bulk specific gravity (defined in JIS K-3362) of the resin particles is preferably from 0.40 to 0.80 g/ml, more preferably from 0.50 to 0.75 g/ml, even more preferably from 0.60 to 0.73 g/ml, so as to sufficiently deliver the advantage of the present invention.
- the water-absorbing resin prepared by the aforementioned method exhibits a typical saturated centrifuge retention capacity of about 10 to 100 g/g in physiological saline.
- the absorption and other physical properties are adjusted suitably for usage.
- the water-absorbing resin per se can function as the water-absorbing agent. Therefore, when the water-absorbing agent is nothing but the water-absorbing resin per se, the water-absorbing agent is manufactured by the method described in the foregoing.
- the water-absorbing agent for use in the present invention is prepared by further crosslinking the water-absorbing resin on the surface (secondary crosslinking).
- Surface treatment in the present invention refers to subjecting the surface of a water-absorbing resin to secondary crosslinking. Surface treatment means the same as surface crosslinking treatment.
- crosslinking agents are available to crosslink the surface (surface crosslinking agents).
- Preferred examples in view of improvements in the physical properties of the resultant water-absorbing agent include, but not limited to, polyhydric alcohol compounds, epoxy compounds, polyamine compounds and their condensates with haloepoxy compounds, oxazoline compounds; mono, di, or polyoxazolidinone compounds, polyvalent metallic compounds, and alkylene carbonate compounds.
- the surface crosslinking agent for use in the present invention is not limited in any particular manner. Among others, those described in US patents 6228930 , 6071976 , and 6254990 can be used. Specific examples are polyhydric alcohol compounds, such as mono, di, tri, tetra and polyethylene glycols, monopropylene glycol, 1,3-propanediol, dipropylene glycol, 2,3,4-trimethyl-1,3-pentanediol, polypropylene glycol, glycerine, polyglycerine, 2-butene-1,4-diol, 1, 4-butanediol, 1,3-butanediol, 1,5-pentanediol, 1,6-hexanediol, and 1,2-cyclohexanedimethanol; epoxy compounds, such as ethylene glycol diglycidyl ether and glycidol; polyamine compounds, such as ethylenediamine, diethylenetriamine, tri
- surface crosslinking agents may be used either alone or in any combination.
- a polyhydric alcohol is used in the surface crosslinking agent.
- the polyhydric alcohol contains preferably 2 to 10 carbons per molecule, more preferably 3 to 8 carbons per molecule.
- the he surface crosslinking agent is used preferably at 0.001 to 10 wt. % relative to the water-absorbing resin, more preferably at 0.01 to 5 wt. %.
- water is used preferably at 0.5 to 20 wt. % relative to the water-absorbing resin, more preferably at 0.5 to 10 wt. %.
- a hydrophilic organic solvent may be used in place of or together with water.
- hydrophilic solvent examples include lower alcohols, such as methyl alcohol, ethyl alcohol, n-propyl alcohol, isopropyl alcohol, n-butyl alcohol, isobutyl alcohol, and t-butyl alcohol; ketones, such as acetone; ethers, such as dioxane, tetrahydrofuran, and alkoxypolyethylene glycol; amides, such as N,N-dimethylformamide; and sulfoxides, such as dimethyl sulfoxide.
- the hydrophilic organic solvent is used preferably at 0 to 10 wt. % relative to the water-absorbing resin, more preferably at 0 to 5 wt. %, even more preferably at 0 to 3 wt. %.
- the surface crosslinking agent is mixed first with water and/or the hydrophilic organic solvent.
- the aqueous solution is then preferably sprayed or dropped to blend with the water-absorbing resin. Spraying is the preferred method of the two.
- the sprayed liquid drops measure preferably 0.1 to 300 ⁇ m in average particle diameter, more preferably 0.1 to 200 ⁇ m.
- the water-absorbing resin after being mixed with the surface crosslinking agent is preferably heated.
- the resin is heated preferably at 100 to 250°C (the temperature of a heat medium or material), more preferably at 150 to 250°C, for 1 minute to 2 hours.
- the resin is heated at 180°C for 0.1 to 1.5 hours or at 200°C for 0.1 to 1 hour.
- the water-absorbing agent prepared by the foregoing surface crosslinking is preferably processed into a particular particle size to sufficiently deliver the advantage of the present invention.
- This particle size regulation may be done either before or after a surface treatment.
- regulating the water-absorbing agent used in the present invention into a particular particle size enables the present invention to achieve an excellent advantage in actual use (for example, as a gelling agent for urine in paper diapers).
- the surface treatment and regulation for a particular particle size in accordance with the present invention produce a synergistic effect: the surface treatment and regulation achieves far better heat retention than either the surface treatment or the regulation for a particular particle size alone.
- the above explanation is a mere assumption. Whether it will ever be proved or not bears no relation to the rights granted upon the present invention and by no means limit the scope and effects of the invention.
- the water-absorbing resin is in particle or powder form.
- the particle size of the water-absorbing resin (or water-absorbing agent) is preferably as follows: particles measuring 850 to 600 ⁇ m in diameter account for 10 wt. % or more, but less than 40 wt. % of all particles, those measuring 600 to 300 ⁇ m in diameter account for 60 wt. % or more, and those measuring less than 150 ⁇ m in diameter account for less than 3 wt. %. If particles measuring 850 to 600 ⁇ m in diameter account for less than 10 wt. %, those measuring 600 to 300 ⁇ m account for less than 60 wt. %, or those measuring less than 150 ⁇ m account for 3 wt.
- the heat retention indicator 1 increases, which is not suitable to the present invention. If those measuring 850 to 600 ⁇ m account for 40 wt. % or more, absorption rates for body fluids (urine, blood, etc.) may noticeable drop, which is again not suitable.
- the mass-average particle diameter is less than 400 ⁇ m, the heat retention indicator 1 increases, which is not suitable to the present invention. Similarly, if the mass-average particle diameter is more than 600 ⁇ m, absorption rates for body fluids (urine, blood, etc.) may noticeable drop, which is again not suitable.
- the standard deviation of logarithm ( ⁇ ) of the particle size distribution is preferably from 0.250 to 0.400, more preferably from 0.270 to 0.380.
- the standard deviation of logarithm ( ⁇ ) of the particle size distribution may be adjusted by, for example, agglomeration where necessary. If the standard deviation of logarithm ( ⁇ ) of the particle size distribution is less than 0.250, the heat retention property improves (the heat retention indicator 1 falls). However, the production cost rises dramatically, which is not suitable. If the standard deviation of logarithm ( ⁇ ) of the particle size distribution is more than 0.400, the heat retention indicator 1 rises too much, which is not suitable to the present invention.
- the water-absorbing agent for use in the present invention has preferably a centrifuge retention capacity of 20 g/g to 34 g/g inclusive, more preferably 20 g/g to 32 g/g inclusive, even more preferably 20 g/g to 30 g/g inclusive, in a 0.90 wt. % aqueous solution of sodium chloride. If the centrifuge retention capacity in a 0.90 wt. % aqueous solution of sodium chloride is less than 20 g/g, the manufacture needs to have large quantities of crosslinking agents to manufacture the water-absorbing agent, which adds to the production cost. Further, the low absorption results in the water-absorbing agent absorbing insufficient amounts of liquids.
- the water-absorbing agent for use in the present invention has preferably an absorbency of 20 g/g to 30 g/g inclusive, more preferably 20 g/g to 27 g/g inclusive, in a 0.90 wt. % aqueous solution of sodium chloride against a pressure of 2.0 kPa.
- the diaper and like absorbent is always under, for example, the weight of the wearer when in use. If the absorbency in a 0.90 wt. % aqueous solution of sodium chloride against a pressure of 2.0 kPa is less than 20 g/g, the water-absorbing agent absorbs an insufficient quantity of liquids against pressure. Body fluids (urine, blood, etc.) may leak from the absorbent, possibly causing stickiness. This is not desirable.
- the absorbency in a 0.90 wt. % aqueous solution of sodium chloride against a pressure of 2.0 kPa is as high as 30 g/g or even higher, the water-absorbing agent needs be modified, which adds to the production cost. The increased production cost however does not provide sufficient reward in actual use of the diaper use. It is therefore unnecessary to raise the absorbency in a 0.90 wt. % aqueous solution of sodium chloride against a pressure of 2.0 kPa to or beyond 30 g/g.
- the water-absorbing agent for use in the present invention has preferably a saline flow conductivity (SFC) of 0 ⁇ 10 -7 cm 3 sec/g or more, but less than 20 ⁇ 10 -7 cm 3 sec/g, more preferably 0 ⁇ 10 -7 cm 3 sec/g or more, but less than 10 ⁇ 10 -7 cm 3 sec/g, for a 0.69 wt. % aqueous solution of sodium chloride.
- SFC saline flow conductivity
- the permeability of the gel layer for the body fluids (urine, blood, etc.) is one of factors realizing efficient delivery of the performance of the water-absorbing agent in the absorbent.
- An actual absorbent in many cases contain pulp or a like hydrophilic fiber.
- the hydrophilic fibers has a liquid diffusing property which helps the water-absorbing agent to deliver sufficient performance. If the saline flow conductivity (SFC) for a 0.69 wt. % aqueous solution of sodium chloride is as high as 20 ⁇ 10 -7 cm 3 sec/g or even higher, the permeability for body fluids (urine, blood, etc.) too high. The body fluids will likely spread across the absorbent before it is absorbed by the water-absorbing agent. The wearer may feel uneasy, for example, about the possibility of body fluids leaking from the absorbent. The wearer may feel uncomfortable from actual leaking. This is not desirable with the present invention.
- SFC saline flow conductivity
- the water-absorbing agent for use in the present invention has preferably a heat retention indicator 1 (maximum temperature decrease per minute 5 to 10 minutes after 10 times swelling at 50°C) of 0 to 3.0°C/min, more preferably 0 to 2.7°C/min, even more preferably 0 to 2.5°C/min, most preferably 0 to 2.2°C/min. If the heat retention indicator 1 is more than 3.0, the heat retention property is insufficient. This is in contradiction to the objective of the present invention to provide an absorbent with excellent absorption performance which alleviates the wearer's problem.
- the upper limit is generally preferably about 50°C.
- the water-absorbing agent for use in the present invention has preferably a heat retention indicator 2 (gel surface temperature 10 minutes after 10 times swelling at 50°C) of 20°C or higher, more preferably 21°C or higher, even more preferably 22°C or higher, still more preferably 23°C or higher, most preferably 24°C or higher. If the heat retention indicator 2 is lower than 20°C, the heat retention property is insufficient. This is in contradiction to the objective of the present invention to provide an absorbent with excellent absorption performance which alleviates the wearer's problem.
- a heat retention indicator 2 gel surface temperature 10 minutes after 10 times swelling at 50°C
- the water-absorbing resin (or water-absorbing agent) for use in the present invention has preferably a heat retention indicator 3 (time taken by the gel surface temperature to return to 37°C after 10 times swelling at 50°C) of 120 seconds or longer, more preferably 130 seconds or longer, even more preferably 140 seconds or longer, still more preferably 150 seconds or longer, most preferably 160 seconds or longer. If the heat retention indicator 3 is shorter than 120 seconds, the heat retention property is insufficient. This is in contradiction to the objective of the present invention to provide an absorbent with excellent absorption performance which alleviates the wearer's problem. There is no specific upper limit. The longer, the better. Generally, even 600 seconds will be acceptable.
- the centrifuge retention capacity in a 0.90 wt. % aqueous solution of sodium chloride is 34 g/g or less; the absorbency in a 0.90 wt. % aqueous solution of sodium chloride against a pressure of 2.0 kPa is less than 30 g/g; the saline flow conductivity (SFC) for a 0.69 wt. % aqueous solution of sodium chloride is less than 20 ⁇ 10 -7 cm 3 sec/g; and the heat retention indicator 1 is 3.0°C/min or less.
- SFC saline flow conductivity
- water-insoluble inorganic fine particles, chelating agents, deodorants, cationic polymers, etc. may be added to the water-absorbing agent, where necessary, provided that the addition does not cause the aforementioned physical properties to go outside of the ranges.
- These substances may be added at 0.0001 to 10 wt. %, preferably 0.0001 to 5 wt. %, relative to the water-absorbing agent. If the substances are added at less than 0.0001 wt. %, they are not effective. If they are added at more than 10 wt. %, the production cost rises, as well as create a cause of degradation of the performance of the water-absorbing agent. This is not desirable.
- the water-absorbing agent of the present invention needs to give a satisfactory value for only any one of the heat retention indicators 1 to 3.
- the agent does so preferably for two of the heat retention indicators 1 to 3, more preferably for the heat retention indicators 1 and 2. Most preferably, the agent does so for all the heat retention indicators 1 to 3.
- the absorbent in accordance with the present invention is prepared by molding powder of a water-absorbing agent containing a water-absorbing resin as a major component with another given absorbent material.
- the absorbent may take any shape. Preferred shapes are sheet, cylinder, film, and fabric. Especially preferably, the absorbent is fabricated into a sheet shape (web shape). If the water-absorbing resin (or water-absorbing agent) can be prepared in a sheet shape, it can be used without further processing.
- the absorbent in accordance with the present invention contains, as a major component, a water-absorbing resin (or water-absorbing agent) with a crosslinked structure constructed by the polymerization of an unsaturated monomer component and further contains hydrophilic fibers.
- hydrophilic fibers for use in the present invention are not limited in any particular manner. Examples include crushed wood pulp, cotton linters, crosslinked cellulose fibers, rayon, cotton, wool, acetate, and vinylon. Preferably, these materials are used after being airlaid.
- the absorbent is manufactured from the aforementioned water-absorbing agent and hydrophilic fibers in accordance with the present invention.
- the water-absorbing resin preferably accounts for 20 to 100% wt. % (core concentration), more preferably 25 to 90 wt. %, even more preferably 30 to 80 wt. %, yet more preferably 40 to 80 wt %, still more preferably 50 to 80 wt. %, again more preferably 60 to 80 wt %, further preferably 70 to 80 wt. %, of the total of the water-absorbing agent and the hydrophilic fibers. If the core concentration is less than 20 wt. %, the amount of the water-absorbing agent used may be too small to impart sufficient heat retention to the whole diaper, which is not desirable.
- the method of manufacturing is not limited in any particular manner.
- they are manufactured by dry-mixing a water-absorbing resin with hydrophilic fibers in a mixer or like mixing machine in such a ratio as to achieve the aforementioned core concentration and molding the resultant mixture into a web shape by, for example, air paper making.
- water, an aqueous liquid, or one of various organic solvent is either sprayed or added dropwise to the mixture obtained from the dry mixing.
- the absorbent is preferably compress molded to a density of 0.001 to 0.50 g/cc and a basic weight of 0.01 to 0.20 g/cm 2 .
- the absorbent article in accordance with the present invention is made of an absorbent in accordance with the present invention, a liquid-permeable top sheet, and a liquid-impermeable back sheet.
- the method of manufacturing of an absorbent article in accordance with the present invention is not limited in any particular manner.
- the absorbent is sandwiched between a liquid-permeable base material (top sheet) and a liquid-impermeable base material (back sheet) and where necessary, provided with an elasticity member, a diffusion layer, adhesive tape, etc. to form an absorbent article, for example, an adult disposable diaper or a sanitary napkin.
- the water-absorbing resin (or water-absorbing agent), absorbent, etc. in accordance with the present invention are able to give a heat retention property to absorbent articles and exhibit excellent heat retention and absorption properties over an extended period of time.
- Specific examples of such absorbent articles include, but not limited in any particular manner to, adult disposable diapers, baby diapers, sanitary napkins, so-called incontinence pads, and other hygiene materials of which the market is rapidly growing lately.
- the water-absorbing agent, absorbent, etc. in the absorbent article has an excellent heat retention property and low seepage, providing an excellent dry feel, and therefore greatly alleviates wearers' problems.
- water-absorbing agents or water-absorbing resins
- absorbent articles were measured as follows. Note that the water-absorbing agents (or water-absorbing resins) and absorbent articles were used at 25°C ⁇ 2°C/50%RH unless otherwise mentioned.
- a water ratio indicates the ratio of the water content in the water-absorbing resin (or water-absorbing agent).
- the water content ratio was measured as follows.
- a measuring device was thus set up.
- a glass filter measuring 90 mm in diameter and 5 mm in thickness was placed inside a petri dish with a diameter of 150 mm.
- a 0.90 wt. % aqueous solution of sodium chloride (physiological saline) at 25 ⁇ 2°C was added so that it was flush with the top surface of the glass filter.
- a piece of filter paper having a diameter of 90 mm available from Toyo Roshi Kaisha, Ltd.; No. 2 so that the entire surface became wet. Excessive liquid was removed.
- a water-absorbing agent (or water-absorbing resin) was sieve using 850 ⁇ m, 710 ⁇ m, 600 ⁇ m, 500 ⁇ m, 425 ⁇ m, 300 ⁇ m, 212 ⁇ m, 150 ⁇ m, 106 ⁇ m, 75 ⁇ m, 45 ⁇ m, and other JIS standard sieves.
- the percentages (R) of residuals were plotted on logarithmic probability paper.
- the mass-average particle diameter (D50) was read from the plots.
- the smaller the ⁇ the narrower the particle size distribution.
- the sieving was done as follows. 10.00 g of water-absorbing agent (or water-absorbing resin) was introduced to JIS standard sieves (Iida testing sieves, inner diameter of 80 mm) with openings measuring 850 ⁇ m, 710 ⁇ m, 600 ⁇ m, 500 ⁇ m, 425 ⁇ m, 300 ⁇ m, 212 ⁇ m, 150 ⁇ m, 106 ⁇ m, 75 ⁇ m, 45 ⁇ m, etc. and classify for 5 minutes in a Ro-tap sieve shaker (available from Iida Seisakusho, Co., Ltd., ES-65 sieve shaker) for classification.
- the mass-average particle diameter (D50) indicates a particle diameter which corresponds to 50 wt. % of all particles using a standard sieve with openings of the same size.
- SFC saline flow conductivity
- FIG 1 is a schematic of the arrangement of a measuring device 10. Using this device is measured the heat retention indicator, an indicator of performance of the water-absorbing agent in accordance with the present invention.
- the measuring device 10 includes an aluminum cup 2, a thermography 3, and an ice-water bath 5 (2400 ml).
- a water-absorbing agent or water-absorbing resin
- the container 2 measured about 5 cm in bottom diameter, about 2 cm in height, 0.05 mm in bottom thickness, and 0.16 to 0.25 mm in side face thickness, and weighed about 0.83 g.
- 20 ml of a 0.90 wt. % aqueous solution of sodium chloride (physiological saline) heated to 50°C was quickly poured in and let swell for 2 minutes so that the gel layer became even. After the swell, the gel layer 1 was about 1 cm high.
- the swollen gel was moved quickly, preferably in 3 seconds, into the 3°C ice-water bath 5 (2400 ml) containing ice 8 and water 9.
- the recording of the surface temperature of the swollen gel layer 1 at the center of its top surface was started.
- the thermography Neo Thermo, available from Nippon Avionics Co., Ltd.
- the temperature was continuously recorded for 20 minutes after the start of the cooling.
- the ice-water bath 5 was maintained at 3°C by stirring with a stirring bar 7 controlled by a stirring device 4.
- the aluminum cup 2 had to be immersed in the ice-water bath 5 at least up to the level flush with the top of the gel layer 1 (about 1 cm).
- the height of the aluminum cup 2 may be adjusted, for example, using an adjuster table 6 which includes preferably a mesh structure in consideration of the temperature of the aluminum cup 2.
- the recorded gel layer surface temperature was plotted in a graph with 1 minute intervals.
- the X axis indicated the time with 0 minutes being the start of the cooling and 20 minutes being the end of the recording.
- the Y axis indicated the temperature.
- a change .in gel surface temperature per minute was calculated between 5 minutes and 10 minutes into the cooling (temperature changes between 5 and 6 minutes, 6 and 7 minutes, 7 and 8 minutes, 8 and 9 minutes, 9 and 10 minutes into the cooling). The greatest of the absolute values of the changes was picked up as the heat retention indicator 1.
- the heat retention indicator 2 was measured during the cooling for the heat retention indicator 1.
- the heat retention indicator 2 is the surface temperature of the swollen gel 10 minutes into the cooling.
- the heat retention indicator 3 was measured during the cooling for the heat retention indicator 1.
- the heat retention indicator 3 is the time (seconds) taken by the surface temperature of the swollen gel to reach 37°C after the start of the cooling.
- Reference example 1 preparation/neutral polymerization of water-absorbing resin (a)
- % aqueous solution of L-ascorbic acid were added to the reaction liquid while stirring, about 20 seconds after which polymerization started. Polymerization was carried out at 20 to 95°C while crushing the generated gel. A crosslinked polymer in water-containing gel form was obtained 42 minutes into the polymerization. The obtained crosslinked polymer in water-containing gel form was divided into pieces, each measuring about 5 mm or less in diameter. The crosslinked polymer in water-containing gel form divided into pieces was spread on a 20 mesh (850 ⁇ m openings) net and hot-air-dried under heat at 180°C for 40 minutes.
- the polymer was crushed in a roll mill and classified using JIS standard sieves with 850 ⁇ m and 150 ⁇ m openings to prepare a water-absorbing resin (a) of a pulverized irregularly pulverized.
- the resin (a) had a mass average particle diameter of 450 ⁇ m, contained 28 wt. % particles measuring from 850 to 600 ⁇ m in diameter and 2 wt. % particles measuring less than 150 ⁇ m in diameter, and had a standard deviation of logarithm ( ⁇ ) of 0.364 and a water content ratio of 6 wt. %.
- the CRC was 42.6 (g/g).
- the amount of the soluble component was 12.5 wt. %.
- Reference example 2 preparation/neutral polymerization of water-absorbing resin (b)
- a water-absorbing resin (b) of an irregularly pulverized shape was prepared by the same operation as with reference example 1, except that the concentration of monomer was changed to 40 wt. %, the neutrality ratio was changed to 75 mole %, and the crosslinking agent was changed to 3.97 g of trimethylolpropane triacrylate.
- the resin (b) had a mass average particle diameter of 450 ⁇ m, contained 28 wt. % particles measuring from 850 to 600 ⁇ m in diameter and 2 wt. % particles measuring less than 150 ⁇ m in diameter, and had a standard deviation of logarithm ( ⁇ ) of 0.364 and a water content ratio of 6 wt. %.
- the CRC was 37.6 (g/g).
- the amount of the soluble component was 12.3 wt. %.
- the obtained mixture was introduced into a 5 liter mortar mixer (available from Nishi Nihon Shikenki Seisakusho K.K.) in which the container was heated in an oil bath at 210°C. The mixture was then stirred and mixed so as to uniformly receive heat. About 20 minutes later, the mixture was removed from the mortar mixer. The entire mixture was then passed through a 850 ⁇ m JIS standard sieve and subjected to surface crosslinking.
- the obtained water-containing product was moved to a sealed container.
- the product was thermally cured at 60°C in a windless drier for 1 hour (to cause the water content added inside the water-containing product to be absorbed). After 1 hour, the water-containing product was removed from the drier. The entire product was passed through a 850 ⁇ m JIS standard sieve to obtain a water-absorbing agent (1).
- a water-absorbing agent (2) was prepared by adding Aerosil 200 (available from Aerosil) to the water-absorbing agent (1) obtained in example 1 at 0.30 wt. %. The obtained water-absorbing agent (2) was evaluated similarly to example 1. Results are summarized in Table 1 below.
- the obtained mixture was introduced into a 5 liter mortar mixer (available from Nishi Nihon Shikenki Seisakusho K.K.) in which the container was heated in an oil bath at 205°C. The mixture was then stirred and mixed so as to uniformly receive heat. About. 40 minutes later, the mixture was removed from the mortar mixer. The entire mixture was then passed through a 850 ⁇ m JIS standard sieve and subjected to surface crosslinking.
- the obtained water-containing product was moved to a sealed container.
- the product was thermally cured at 60°C in a windless drier for 1 hour (to cause the water content added inside the water-containing product to be absorbed). After 1 hour, the water-containing product was removed from the drier. The entire product was passed through a 850 ⁇ m JIS standard sieve to obtain a water-containing powder.
- a water-absorbing agent (3) was prepared by adding Aerosil 200 (available from Aerosil) to the obtained water-containing powder at 0.30 wt. %.
- the obtained water-absorbing agent (3) was evaluated similarly to example 1. Results are summarized in Table 1 below.
- the water-absorbing resin (a) obtained in reference example 1 was designated as a comparative water-absorbing agent (4) and evaluated similarly to example 1. Results are summarized in Table 1.
- the water-absorbing agent (1) obtained in example 1 was further classified using JIS standard sieves for particles measuring 300 to 150 ⁇ m. The obtained particles were designated as a comparative water-absorbing agent (5) and evaluated similarly to example 1. Results are summarized in Table 1.
- the obtained mixture was introduced into a 5 liter mortar mixer (available from Nishi Nihon Shikenki Seisakusho K.K.) in which the container was heated in an oil bath at 200°C. The mixture was then stirred and mixed so as to uniformly receive heat. About 40 minutes later, the mixture was removed from the mortar mixer. The entire mixture was then passed through a 850 ⁇ m JIS standard sieve and subjected to surface crosslinking.
- a 5 liter mortar mixer available from Nishi Nihon Shikenki Seisakusho K.K.
- the obtained water-containing product was moved to a sealed container.
- the product was thermally cured at 60°C in a windless drier for 1 hour (to cause the water content added inside the water-containing product to be absorbed). After 1 hour, the water-containing product was removed from the drier. The entire product was passed through a 850 ⁇ m JIS standard sieve to obtain a comparative water-absorbing agent (6).
- the neutralized crosslinked polymer in water-containing gel form was spread on a 20 mesh (850 ⁇ m openings) net and hot-air-dried under heat at 160°C for 40 minutes.
- the polymer was pulverized in a roll mill and classified using a JIS standard sieve with 850 ⁇ m openings to prepare a water-absorbing resin (c) of an irregularly pulverized shape.
- the resin (c) had a mass average particle diameter of 405 ⁇ m, contained 20 wt. % particles measuring from 850 to 600 ⁇ m in diameter and 12 wt. % particles proposedng less than 150 ⁇ m in diameter, and had a standard deviation of logarithm ( ⁇ ) of 0.520 and a water content ratio of 6 wt. %.
- the CRC was 38.1 (g/g).
- the amount of the soluble component was 9.8 wt. %.
- the obtained mixture was introduced into a 5 liter mortar mixer (available from Nishi Nihon Shikenki Seisakusho K.K.) in which the container was heated in an oil bath at 180°C. The mixture was then stirred and mixed so as to uniformly receive heat. About 60 minutes later, the mixture was removed from the mortar mixer. The entire mixture was then passed through a 850 ⁇ m JIS standard sieve to obtain a comparative water-absorbing agent (7).
- a 5 liter mortar mixer available from Nishi Nihon Shikenki Seisakusho K.K.
- the resin (d) had a mass average particle diameter of 395 ⁇ m, contained 5 wt. % particles measuring less than 150 ⁇ m in diameter, and had a standard deviation of logarithm ( ⁇ ) of 0.363 and a water content ratio of 6 wt. %.
- the CRC was 47.0 (g/g), The amount of the soluble component was 20.0 wt. %.
- the obtained mixture was introduced into a 5 liter mortar mixer (available from Nishi Nihon Shikenki Seisakusho K.K.) in which the container was heated in an oil bath at 210°C. The mixture was then stirred and mixed so as to uniformly receive heat. About 40 minutes later, the mixture was removed from the mortar mixer. The entire mixture was then passed through a 850 ⁇ m JIS standard sieve and subjected to surface crosslinking.
- a 5 liter mortar mixer available from Nishi Nihon Shikenki Seisakusho K.K.
- the obtained water-containing product was moved to a sealed container.
- the product was thermally cured at 60°C in a windless drier for 1 hour (to cause the water content added inside the water-containing product to be absorbed). After 1 hour, the water-containing product was removed from the drier. The entire product was passed through a 850 ⁇ m JIS standard sieve to obtain a comparative water-absorbing agent (8).
- an absorbent article that is, a pad type of adult disposable diaper (1) was made by combining a so-called back sheet (liquid-impermeable sheet) which was made of a liquid-impermeable polypropylene, the foregoing absorbent, and a top sheet (liquid-permeable sheet) which is an nonwoven cloth made of a liquid-permeable polypropylene in this order using a double-sided adhesive tape.
- the absorbent article (1) weighed 50 g.
- An absorbent article (2) was made by replacing the water-absorbing agent (1) used in example 4 with the water-absorbing agent (2) obtained in example 2.
- An absorbent article (3) was made by replacing the water-absorbing agent (1) used in example 4 with the water-absorbing agent (3) obtained in example 3.
- Comparative absorbent articles (1) to (9) were made by replacing the water-absorbing agent (1) used in example 4 with the comparative water-absorbing agents (4) to (12) obtained in comparative examples 1 to 9.
- the water-absorbing agent obtained in the present invention when applied as a water absorber in diapers, exhibits excellent heat retention and absorption, providing a very excellent water absorber in comparison with conventional absorbents.
- An absorbent article in which the water-absorbing agent obtained according to the present invention is used has excellent heat retention and absorption, easing discomfort felt by the consumer in the absorbent article.
- the water-absorbing agent in accordance with the present invention can find a wide variety of applications, such as moisture absorbing agents, dehumidifying agents, and building materials.
- the water-absorbing agent is preferably used as hygiene materials absorbing feces, urine, and blood, typical examples of which include paper diapers and sanitary napkins.
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- Life Sciences & Earth Sciences (AREA)
- Animal Behavior & Ethology (AREA)
- General Health & Medical Sciences (AREA)
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- Biomedical Technology (AREA)
- Heart & Thoracic Surgery (AREA)
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- Solid-Sorbent Or Filter-Aiding Compositions (AREA)
Claims (14)
- Wasserabsorbierendes Mittel, umfassend ein wasserabsorbierendes Harz mit einer vernetzenden Struktur, aufgebaut durch Polymerisation einer ungesättigten Monomerkomponente, wobei das wasserabsorbierende Mittel oberflächlich behandelt wurde und
das wasserabsorbierende Mittel alle Eigenschaften (1) bis (4) erfüllt:(1) Wärmeretentionsindikator 1 (höchste Temperaturabnahme je Minute 5 bis 10 Minuten nach 10fachem Aufquellen in 0,90 gew.-%igem Natriumchlorid bei 50°C) liegt bei 0 bis 3,0°C/min;(2) eine Zentrifugenretentionskapazität in einer 0,90 gew.-%igen wässrigen Lösung von Natriumchlorid (30-Minuten-Wert) liegt bei 34 g/g und darunter;(3) eine Absorption in einer 0,90 gew.-%igen wässrigen Lösung von Natriumchlorid unter einer Druckbelastung von 2,0 kPa (60-Minuten-Wert) liegt bei unter 30 g/g; und(4) eine Permeabilität SFC gegenüber einer 0,69 gew.-%igen wässrigen Lösung von Natriumchlorid liegt bei unter 20x10-7 cm3sec/g. - Wasserabsorbierendes Mittel nach Anspruch 1, bei dem
es sich bei dem wasserabsorbierenden Mittel um Teilchen handelt und
das wasserabsorbierende Mittel folgende Bedingungen erfüllt:Teilchen mit Durchmessern von 600 bis 300 µm gemäß Siebklassierung machen 60 Gew.-% und mehr und solche von weniger als 150 µm 3 Gew.-% und weniger aus; undeine Standardabweichung des Logarithmus (σζ) der Teilchengrößenverteilung liegt bei 0,250 bis 0,400. - Wasserabsorbierendes Mittel nach einem der Ansprüche 1 und 2, das neben dem wasserabsorbierenden Harz auch noch wasserunlösliche anorganische Feinteilchen umfasst.
- Wasserabsorbierendes Mittel nach einem der Ansprüche 1 bis 3, bei dem ein Wärmeretentionsindikator 2 (Geloberflächentemperatur 10 Minuten nach 10 fachem Aufquellen in einem 0,90 gew.-%igen Natriumchlorid bei 50°C) bei 20°C und höher liegt.
- Wasserabsorbierendes Mittel nach einem der Ansprüche 1 bis 4, bei dem ein Wärmeretentionsindikator 3 (Zeitdauer für den Rückgang einer Geloberflächentemperatur nach 10fachem Aufquellen in einem 0,90 gew.-%igen Natriumchlorid bei 50°C auf 37°C) bei 120 Sekunden und länger liegt.
- Wasserabsorbierendes Mittel nach einem der Ansprüche 1 bis 5, bei dem ein massenmittlerer Teilchendurchmesser (gemäß Siebklassierung) bei 400 bis 600 µm liegt.
- Wasserabsorbierendes Mittel nach einem der Ansprüche 1 bis 6, das neben dem wasserabsorbierenden Harz auch noch Polyol umfasst.
- Absorber, umfassend das wasserabsorbierende Mittel gemäß einem der Ansprüche 1 bis 7 und hydrophile Fasern.
- Absorbierendes Erzeugnis, umfassend den Absorber gemäß Anspruch 8, eine flüssigkeitsdurchlässige Oberschicht und eine flüssigkeitsundurchlässige Unterschicht.
- Verfahren zur Herstellung eines wasserabsorbierenden Mittels, enthaltend ein wasserabsorbierendes Harz mit einer vernetzenden Struktur, aufgebaut durch Polymerisation einer ungesättigten Monomerkomponente, bei dem man
eine ein säuregruppenhaltiges ungesättigtes Monomer als Hauptkomponente enthaltende Monomerkomponente zu einem wasserabsorbierenden Harz polymerisiert und
das bei der Polymerisation erhaltene wasserabsorbierende Harz oberflächlich vernetzt,
wobei
bei der Polymerisation
das wasserabsorbierende Harz als Teilchen vorliegt,
das wasserabsorbierende Harz eine Zentrifugenretentionskapazität von 35 g/g und mehr bezüglich 0,90 gew.-%igem Natriumchlorid aufweist (30-Minuten-Wert) und
die Monomerkomponente so polymerisiert wird, dass das wasserabsorbierende Harz folgende Bedingungen (1) und (2) bezüglich spezieller Teilchengrößen erfüllt:(1) Teilchen mit Durchmessern von 600 bis 300 µm gemäß Siebklassifizierung machen 60 Gew.-% und mehr und solche von weniger als 150 µm 3 Gew.-% und weniger aus; und(2) eine Standardabweichung des Logarithmus (σζ) der Teilchengrößenverteilung liegt bei 0,250 bis 0,400,bei der Oberflächenvernetzung das die Bedingungen (1) und (2) bezüglich spezieller Teilchengrößen erfüllende wasserabsorbierende Harz in einer oberflächenvernetzenden Behandlung oberflächlich vernetzt wird. - Verfahren nach Anspruch 10, bei dem man bei der Oberflächenvernetzung
das die Bedingungen (1) und (2) bezüglich spezieller Teilchengrößen bei der Polymerisation erfüllende wasserabsorbierende Harz solange oberflächlich vernetzt, bis:eine Zentrifugenretentionskapazität in einer 0,90 gew.-%igen wässrigen Lösung von Natriumchlorid (30-Minuten-Wert) bei 34 g/g und darunter liegt; undeine Absorption in einer 0,90 gew.-%igen wässrigen Lösung von Natriumchlorid unter einer Druckbelastung von 2,0 kPa (60-Minuten-Wert) bei unter 30 g/g liegt. - Verfahren nach einem der Ansprüche 10 und 11, bei dem das wasserabsorbierende Harz einen massenmittleren Teilchendurchmesser von 400 µm bis 600 µm aufweist.
- Wasserabsorbierendes Mittel nach einem der Ansprüche 1 bis 7, bei dem es sich bei dem ungesättigten Monomer um eine Acrylsäure oder ein Acrylsäuresalz handelt und ein Verhältnis eines von Acrylsäure(salz) verschiedenes Monomer zu Acrylsäure(salz) bei 0 bis 30 Mol-% inklusive liegt.
- Absorber nach Anspruch 8, bei dem das wasserabsorbierende Mittel gemäß einem der Ansprüche 1 bis 7 20 Gew.-% und mehr einer Gesamtmenge aus wasserabsorbierendem Mittel und hydrophilen Fasern ausmacht.
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JP2003415117 | 2003-12-12 | ||
PCT/JP2004/018871 WO2005056177A1 (en) | 2003-12-12 | 2004-12-10 | Water-absorbing agent, manufacture method thereof, and absorbent and absorbent article made therefrom |
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EP1701786A4 EP1701786A4 (de) | 2009-06-03 |
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EP (1) | EP1701786B2 (de) |
CN (1) | CN100434159C (de) |
AU (1) | AU2004296143B2 (de) |
BR (1) | BRPI0417388B1 (de) |
DE (1) | DE602004031260D1 (de) |
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-
2004
- 2004-12-10 BR BRPI0417388-0B1A patent/BRPI0417388B1/pt active IP Right Grant
- 2004-12-10 EP EP04807229.2A patent/EP1701786B2/de active Active
- 2004-12-10 DE DE602004031260T patent/DE602004031260D1/de active Active
- 2004-12-10 AU AU2004296143A patent/AU2004296143B2/en not_active Ceased
- 2004-12-10 US US10/581,603 patent/US20070173610A1/en not_active Abandoned
- 2004-12-10 WO PCT/JP2004/018871 patent/WO2005056177A1/en active Application Filing
- 2004-12-10 CN CNB2004800369203A patent/CN100434159C/zh active Active
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE102011086516A1 (de) | 2011-11-17 | 2013-05-23 | Evonik Degussa Gmbh | Superabsorbierende Polymere mit schnellen Absorptionseigenschaften sowieVerfahren zu dessen Herstellung |
DE102013209023A1 (de) | 2013-05-15 | 2014-11-20 | Evonik Industries Ag | Superabsorbierende Polymere mit schnellen Absorptionseigenschaften sowie Verfahren zu dessen Herstellung |
WO2014183987A1 (de) | 2013-05-15 | 2014-11-20 | Evonik Industries Ag | Superabsorbierende polymere mit schnellen absorptionseigenschaften sowie verfahren zu dessen herstellung |
DE102013208942A1 (de) | 2013-05-15 | 2014-11-20 | Evonik Industries Ag | Superabsorbierende Polymere mit schnellen Absorptionseigenschaften sowie Verfahren zu dessen Herstellung |
US11001692B2 (en) | 2013-05-15 | 2021-05-11 | Evonik Operations Gmbh | Superabsorbent polymers with rapid absorption properties and process for producing same |
Also Published As
Publication number | Publication date |
---|---|
CN100434159C (zh) | 2008-11-19 |
EP1701786A1 (de) | 2006-09-20 |
MXPA06006467A (es) | 2006-12-07 |
US20070173610A1 (en) | 2007-07-26 |
BRPI0417388A (pt) | 2007-04-10 |
WO2005056177A1 (en) | 2005-06-23 |
US9308290B2 (en) | 2016-04-12 |
US20140058346A1 (en) | 2014-02-27 |
CN1890023A (zh) | 2007-01-03 |
BRPI0417388B1 (pt) | 2014-11-18 |
EP1701786A4 (de) | 2009-06-03 |
EP1701786B2 (de) | 2022-06-15 |
AU2004296143A1 (en) | 2005-06-23 |
DE602004031260D1 (de) | 2011-03-10 |
AU2004296143B2 (en) | 2008-04-03 |
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